CN223558628U - Automatic blanking forming equipment for electronic component shell - Google Patents

Abstract

The utility model provides an automatic blanking former for electronic components shell relates to components shell processing technology field, the on-line screen storage device comprises a base, main storage tank has been seted up to base upper surface one side, base upper surface middle part both sides are fixed mounting respectively has the support column, two support column upper end fixed mounting has the roof, roof lower extreme fixed mounting has the pneumatic cylinder, the utility model discloses a cooperation shaping subassembly to realize receiving and cooperation shaping briquetting down to current blanking panel and carry out shaping processing, and then realize the shell shaping operation to current panel, wherein can cooperate with drive assembly through this subassembly, thereby realize cooperating when carrying out with the pay-off, make it carry out synchronous ejection of compact operation, and then make it effectively solve and can not carry out timely taking out the operation to the product after accomplishing the shaping, and still need personnel take out thereby lead to the problem that follow-up process speed descends, still solved and can cause the jam problem of product to appear.

Description

Automatic blanking forming equipment for electronic component shell

Technical Field

The utility model relates to the technical field of component shell processing, in particular to automatic blanking forming equipment for an electronic component shell.

Background

In the electronic components production process, thereby the effect is better when making electronic components follow-up use needs extra production shell, and wherein the shell is generally formed for panel blanking shaping, and a TYPE-C processing for shell processing equipment that patent of application number CN202023278238.0 proposed, including main part and clamp plate gas pole, the mid-mounting of main part has the mounting bracket, and the inboard of mounting bracket is provided with the waste bin, the blanking plate is installed to the upper end of mounting bracket, and the mid-connection of blanking plate has the gallows, the upper end left side of blanking plate is settled there is the material loading end, and the right side of material loading end is provided with the waste hole, the discharge gate has been seted up at the middle part of blanking plate, and the bottom of discharge gate is connected with the slide, the movable plate is installed through the cassette in the upper end right side of blanking plate, and the middle part of movable plate is provided with the setting groove, the rear end of movable plate is connected with the movable plate gas pole, the clamp plate gas pole is installed in the upper portion of main part, and the lower extreme of clamp plate gas pole is connected with the clamp plate, the bottom of clamp plate is provided with the blanking head, the right side of main part is provided with the material loading box. Above-mentioned TYPE-C for shell processing treatment facility be provided with the slide, the ejection of compact after convenient processing.

However, the above-mentioned apparatus is not capable of continuous rapid blanking operation during processing, which results in poor overall processing efficiency, because continuous processing is required during use, which results in not being able to perform timely removal operation of the finished product, and also requires personnel to remove, which results in a decrease in the subsequent processing speed, and also results in a problem of clogging of the product.

Disclosure of utility model

(One) solving the technical problems

Aiming at the defects of the prior art, the utility model provides automatic blanking forming equipment for an electronic component shell, which solves the problem that the equipment cannot timely take out the formed product due to continuous processing in use, and also solves the problem that the product is blocked and cannot be subjected to continuous rapid blanking operation during processing, so that the overall processing efficiency is poor.

(II) technical scheme

In order to achieve the above purpose, the technical scheme adopted by the utility model is as follows:

The automatic blanking forming equipment for the electronic component shell comprises a base, wherein a main storage tank is formed in one side of the upper surface of the base, support columns are fixedly arranged on two sides of the middle of the upper surface of the base respectively, a top plate is fixedly arranged on the upper ends of the two support columns, a hydraulic cylinder is fixedly arranged on the lower end of the top plate, a forming through hole is formed in the upper surface of the base and positioned between the two support columns, an expansion placing tank is formed in the main storage tank and positioned below the forming through hole, a second discharging tank is arranged between the expansion placing tank and the main storage tank, a matched forming assembly is arranged in the expansion placing tank, and a driving assembly is arranged on the upper surface of the base and positioned on two sides of the matched forming assembly;

the driving assembly comprises lower mounting columns and a board placing table, wherein the lower mounting columns are four, every two lower mounting columns are arranged on one side of the corresponding supporting column, and the board placing table is provided with two boards which are respectively arranged on two sides of the forming through hole.

Preferably, each lower mounting column is internally provided with a penetration through hole, each penetration through hole is fixedly provided with a tightening spring at the bottom, each penetration through hole is movably penetrated and provided with a limiting inserted rod, each tightening spring is fixedly connected with a corresponding limiting inserted rod, and each upper end of a rod body of the limiting inserted rod is integrally provided with an L-shaped expansion rod.

Preferably, each end part of the L-shaped extension rod body is provided with a matching rotating wheel in a rotating mode, each side of the L-shaped extension rod body is provided with a driving crawler between the matching rotating wheels, one side of the L-shaped extension rod body is provided with a plurality of matching blocks on the outer surface of the driving crawler, and one of the L-shaped extension rod body is fixedly provided with an extension mounting frame, and the upper end of the extension mounting frame is fixedly provided with a driving motor.

Preferably, the output end of the driving motor is fixedly provided with a transmission gear, the outer surface of the matched rotating wheel close to one side of the transmission gear is integrally provided with the matched gear, the matched gear and the transmission gear are in meshed transmission, and a connecting cross rod is fixedly arranged between the matched rotating wheel on one side of the matched gear and the matched rotating wheel on the opposite side of the matched gear.

Preferably, the matching molding assembly comprises an assembly main frame, side matching plates are integrally arranged on two sides of the assembly main frame respectively, and each side matching plate body is provided with a penetrating matching hole in a penetrating mode.

Preferably, one of the side matching plate bodies is integrally provided with a C-shaped extension rod, the end part of the rod body of the C-shaped extension rod is integrally provided with a matching clamping groove, the bottom of the main frame of the assembly is integrally provided with a forming groove, and the forming groove is aligned with the forming through hole.

Preferably, a first discharging groove is integrally formed in one side of the bottom of the main frame of the assembly, side sliding grooves are respectively formed in two sides of the inner wall of the extension placement groove, side inserting rods are integrally formed in the side sliding grooves, reset springs are sleeved on the side inserting rods and close to one side of the main storage groove, and the side inserting rod bodies are in sliding fit with corresponding penetrating fit holes.

Preferably, the side sliding groove at one side of the C-shaped extension rod is provided with an extension slot in a penetrating mode, the rod body of the C-shaped extension rod is movably inserted into the extension slot, and the matching clamping groove is connected with the matching protruding block.

Preferably, each of the outer surfaces of the matching blocks is integrally provided with anti-skid patterns, each of the matching blocks is internally provided with a telescopic slot, each of the telescopic slot is internally provided with an ejection spring, a telescopic inserted rod is arranged in the telescopic slot through the ejection spring in a limiting and inserting mode, and each of the rod body ends of the telescopic inserted rod is fixedly provided with a matching protruding block.

Preferably, the hydraulic cylinder output end is fixedly provided with a molding lower pressing block, the molding lower pressing block is in penetrating fit with the molding through hole, the inner side edge of the molding through hole is integrally provided with a matching cutting groove, the upper side edge of the molding lower pressing block is integrally provided with a material trimming ring, and the material trimming ring is attached to the matching cutting groove.

Compared with the prior art, the utility model has the following beneficial effects:

1. The plate to be blanked can be limited through the driving component and is matched with the hydraulic cylinder to be blanked, the current plate can be continuously transmitted through the driving component, continuous feeding treatment is further achieved, and the problem that continuous quick blanking operation cannot be carried out when the device is processed, and therefore overall processing efficiency is poor is solved.

2. Through the cooperation shaping subassembly to realize receiving the panel of current blanking and cooperate the shaping briquetting to carry out shaping processing under, and then realize the shell shaping operation to current panel, wherein can cooperate with drive assembly through this subassembly, thereby realize cooperating when with the pay-off, make it carry out synchronous ejection of compact operation, and then make it effectively solve and can not carry out timely taking out the operation to the product after accomplishing the shaping, and thereby still need personnel take out the problem that leads to follow-up process velocity to descend, still solved and can cause the jam problem of product to appear.

3. Can tighten up the spring downwards with spacing inserted bar shaft operation, and then make every L type extension rod laminate with the panel of placing now, and then make the drive track can carry out the pay-off operation, make through starting driving motor and carry out the meshing transmission between cooperation gear and the drive gear, and then realize that the cooperation runner of front end carries out the rotation operation by oneself, wherein realize that both sides drive track carries out synchronous rotation through connecting the horizontal pole, and then realize carrying out the drive to the both sides of material and handle.

4. Can outwards push out wherein can be stable through the cooperation lug with cooperation draw-in groove cooperation with flexible inserted bar shaft wherein through every cooperation piece surface all integration be provided with anti-skidding line so that more stable when driving the material, thereby make flexible inserted bar inwards shrink make it can release and connect the cooperation between draw-in groove and the cooperation lug through ejecting spring when C type extension bar shifts to certain position, and then realize the operation that resets, thereby through the operation is collected to the discharge that thereby make this device just carry out automatic in the in-process of pay-off through above-mentioned structure, thereby carry out automatic collection operation effectively reduce working strength and also make the process velocity obtain promoting under the function of realizing automatic continuous shaping.

Drawings

Fig. 1 is a schematic view showing the overall structure of an automatic blanking forming apparatus for an electronic component case according to the present utility model;

fig. 2 is a schematic side view of an automatic blanking apparatus for electronic component cases according to the present utility model;

FIG. 3 is a schematic view showing a sectional structure at A-A in FIG. 2 of an automatic blanking forming apparatus for electronic component cases according to the present utility model;

fig. 4 is a schematic view showing a part of the structure of an automatic blanking forming apparatus for an electronic component case according to the present utility model;

Fig. 5 is a schematic top view of an automatic blanking apparatus for electronic component cases according to the present utility model;

FIG. 6 is a schematic view showing a sectional structure at B-B in FIG. 5 of an automatic blanking apparatus for electronic component cases according to the present utility model;

FIG. 7 is a schematic view showing a sectional structure at C-C in FIG. 5 of an automatic blanking apparatus for electronic component cases according to the present utility model;

Fig. 8 is an enlarged schematic view of the structure of fig. 6 a of an automatic blanking apparatus for electronic component cases according to the present utility model;

Fig. 9 is a schematic view showing another part of the structure of an automatic blanking apparatus for electronic component cases according to the present utility model;

Fig. 10 is a schematic diagram showing another part of the structure of an automatic blanking apparatus for electronic component cases according to the present utility model from a side;

FIG. 11 is a schematic view showing a sectional structure at D-D in FIG. 10 of an automatic blanking apparatus for electronic component cases according to the present utility model;

fig. 12 is a schematic block diagram of an automatic blanking apparatus for electronic component cases according to the present utility model;

Fig. 13 is a schematic diagram showing a front view of a mating block of an automatic blanking apparatus for electronic component cases according to the present utility model;

fig. 14 is a schematic view showing a sectional structure at E-E in fig. 13 of an automatic blanking apparatus for electronic component cases according to the present utility model.

In the figure, 1, a base, 2, a driving assembly, 201, an L-shaped expansion rod, 2011, a lower mounting post, 2012, a limiting inserting rod, 2013, a tightening spring, 2014, an insertion through hole, 202, a matching rotating wheel, 203, a plate placing table, 204, a matching block, 2041, an anti-skid groove, 2042, a telescopic inserting rod, 2043, a matching convex block, 2044, a telescopic slot, 2045, an ejection spring, 205, a driving track, 206, an expansion mounting frame, 207, a driving motor, 2071, a transmission gear, 208, a matching gear, 209, a connecting cross rod, 3, a matching forming assembly, 301, an assembly main frame, 302, a C-shaped extension rod, 3021, a matching clamping groove, 303, a side matching plate, 3031, an insertion matching hole, 304, a forming groove, 305, a first discharging groove, 4, a supporting post, 5, a top plate, 6, a main storage groove, 601, a second discharging groove, 602, an expansion placing groove, 603, a reset spring, 604, a side inserting rod, 605, a side sliding groove, 606, a 7, a slot, 8, a lower pressing ring, a hydraulic pressing ring, and 10 are cut into the forming through holes.

Detailed Description

The technical solutions of the embodiments of the present utility model will be clearly and completely described below in conjunction with the embodiments of the present utility model, and it is apparent that the described embodiments are only some embodiments of the present utility model, not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

Examples

As shown in fig. 1 to 14, an automatic blanking forming device for an electronic component shell comprises a base 1, wherein a main storage tank 6 is formed on one side of the upper surface of the base 1, support columns 4 are fixedly mounted on two sides of the middle of the upper surface of the base 1 respectively, a top plate 5 is fixedly mounted on the upper ends of the two support columns 4, a hydraulic cylinder 7 is fixedly mounted on the lower end of the top plate 5, a forming through hole 10 is formed in the upper surface of the base 1 between the two support columns 4, an expansion placing groove 602 is formed in the main storage tank 6 and below the forming through hole 10, a second discharging groove 601 is formed between the expansion placing groove 602 and the main storage tank 6, a matched forming assembly 3 is arranged in the expansion placing groove 602, and driving assemblies 2 are arranged on the upper surface of the base 1 on two sides of the matched forming assembly 3;

The driving assembly 2 comprises lower mounting columns 2011 and board placing tables 203, wherein four lower mounting columns 2011 are arranged, every two lower mounting columns 2011 are arranged on one side of the corresponding supporting column 4, and the board placing tables 203 are provided with two boards and are respectively arranged on two sides of the forming through hole 10. The driving component 2 can limit the plate to be blanked and is matched with the hydraulic cylinder 7 for blanking, wherein the current plate can be continuously transmitted through the driving component, so that continuous feeding treatment is realized, and the problem that the whole processing efficiency is poor because continuous quick blanking operation can not be performed during processing can be solved through the driving component 2;

Through cooperation shaping subassembly 3 to realize receiving the panel of current blanking and cooperate shaping briquetting 8 to carry out shaping processing under, and then realize the shell shaping operation to current panel, wherein can cooperate with drive assembly 2 through this subassembly, thereby cooperate when realizing with the pay-off, make it carry out synchronous ejection of compact operation, and then make it effectively solve and can not carry out timely taking out the operation to the product after accomplishing the shaping, and thereby still need personnel take out the problem that leads to follow-up process velocity to descend, still solved and can cause the jam problem of product to appear.

In this embodiment, each lower mounting post 2011 is internally provided with a penetration through hole 2014, a tightening spring 2013 is fixedly mounted at the bottom of each penetration through hole 2014, a limiting inserted rod 2012 is movably penetrated and arranged in each penetration through hole 2014, each tightening spring 2013 is fixedly connected with the corresponding limiting inserted rod 2012, and an L-shaped expansion rod 201 is integrally arranged at the upper end of the rod body of each limiting inserted rod 2012. The rod body of the limiting plunger 2012 can be tightened downwards through tightening the springs 2013, so that each L-shaped expansion rod 201 is attached to a currently placed plate, and the driving crawler 205 can perform feeding operation.

When specifically setting up, every L type extension pole 201 shaft tip all rotates and installs the cooperation runner 202, all be provided with drive track 205 between every side cooperation runner 202, wherein one side drive track 205 surface is provided with a plurality of cooperation pieces 204, one of them L type extension pole 201 shaft fixed mounting has extension mounting bracket 206, extension mounting bracket 206 upper end fixed mounting has driving motor 207, driving motor 207 output fixed mounting has driving gear 2071, the cooperation runner 202 surface integration that is close to driving gear 2071 one side is provided with cooperation gear 208, carry out the meshing transmission between cooperation gear 208 and the driving gear 2071, be located the cooperation runner 202 of cooperation gear 208 one side and be located between the cooperation runner 202 of opposite side fixed mounting and connect horizontal pole 209. The driving motor 207 is started to enable the matched gear 208 and the transmission gear 2071 to carry out meshing transmission, so that the matched rotating wheel 202 at the front end carries out self-rotation operation, wherein the driving tracks 205 at the two sides are synchronously rotated through the connecting cross rod 209, and further, the driving treatment of the two sides of the material is realized.

When specifically setting up, cooperation shaping subassembly 3 is including subassembly main frame 301, and the integration is provided with side position cooperation board 303 respectively in subassembly main frame 301 both sides, and every side position cooperation board 303 board body all runs through and has offered interlude mating hole 3031, and one of them side position cooperation board 303 board body integration is provided with C type extension rod 302, and cooperation draw-in groove 3021 has been offered to C type extension rod 302 shaft tip integration, and subassembly main frame 301 bottom integration is provided with shaping groove 304, and shaping groove 304 aligns with shaping through-hole 10.

In this embodiment, a first discharging chute 305 is integrally disposed on one side of the bottom of the main component frame 301, side sliding grooves 605 are respectively disposed on two sides of the inner wall of the extension positioning groove 602, side inserting rods 604 are integrally disposed inside each side sliding groove 605, a reset spring 603 is sleeved on a rod body of each side inserting rod 604 and close to one side of the main storage groove 6, each rod body of each side inserting rod 604 is slidably matched with a corresponding insertion matching hole 3031, an extension slot 606 is formed in the extension groove 605 on one side of the C-shaped extension rod 302 in a penetrating manner, the rod body of the C-shaped extension rod 302 is movably inserted into the extension slot 606, and connection matching is performed between the matching clamping groove 3021 and the matching protruding block 2043. The corresponding insertion matching holes 3031 can be reset and driven through the reset spring 603, so that the next preparation operation is performed after the current product is taken out, and continuous forming operation is further realized, wherein the C-shaped extension rod 302 can be connected and matched with the matching convex blocks 2043 through the matching clamping groove 3021, so that the main assembly frame 301 is in sliding fit with the corresponding insertion matching holes 3031 through each side inserting rod 604 rod body to adjust the position, and the inside of the main assembly frame is further outwards transferred to the second discharging groove 601 through the first discharging groove 305 and finally transferred to the main storage groove 6 through the pre-stored product.

It should be noted that, the outer surface of each mating block 204 is integrally provided with an anti-skid thread 2041, a telescopic slot 2044 is provided in each mating block 204, an ejector spring 2045 is provided in each telescopic slot 2044, a telescopic inserting rod 2042 is provided in each telescopic slot 2044 in a limiting and inserting manner through the ejector spring 2045, and a mating protruding block 2043 is fixedly mounted at the end of each rod body of each telescopic inserting rod 2042. The telescopic plug rod 2042 can be outwards ejected through the ejection spring 2045, the C-shaped extension rod 302 can be stably matched with the matching clamping groove 3021 through the matching convex blocks 2043, so that the assembly main frame 301 is subjected to displacement operation, the anti-skid threads 2041 are integrally arranged on the outer surface of each matching block 204, so that the telescopic plug rod 2042 is more stable when a material is driven, the telescopic plug rod 2042 is inwards contracted through the ejection spring 2045 when the C-shaped extension rod 302 is transferred to a certain position, the matching clamping groove 3021 and the matching convex blocks 2043 can be released, and then the resetting operation is realized.

It can be understood that in the application, the output end of the hydraulic cylinder 7 is fixedly provided with the molding lower pressing block 8, the molding lower pressing block 8 is in penetrating fit with the molding through hole 10, the inner side edge of the molding through hole 10 is integrally provided with the matching cut-in groove 9, the upper side edge of the molding lower pressing block 8 is integrally provided with the material trimming ring 801, and the material trimming ring 801 is attached to the matching cut-in groove 9. The edge of the blanking is faster by the fit between the material trimming ring 801 and the matching cutting groove 9 when blanking, the power of the current material movable blanking is matched with the forming through hole 10 in a penetrating way through the forming pressing block 8, the forming operation is performed on the side by using the forming through hole 10, and then the forming operation is performed on the bottom of the shell by using the forming groove 304.

The working principle of the automatic blanking forming equipment for the electronic component shell is as follows:

When the blanking device is used, firstly, materials are placed on the board placing table 203, then, the driving assembly 2 is started to enable the current materials to be transferred to a position where blanking is needed, then, the hydraulic cylinder 7 is started to enable the forming lower pressing block 8 to be matched with the forming through hole 10 in a penetrating mode to enable the current materials to be subjected to movable blanking, and the forming operation is carried out on the side edge by utilizing the forming through hole 10, wherein the blanking at the edge of the material is faster through the fit between the material trimming ring 801 and the matching cutting groove 9, after the driving assembly 2 is started, the matching clamping groove 3021 and the matching protruding block 2043 are enabled to be connected and matched, further, the finished product inside the assembly main frame 301 is transferred to the main storage groove 6, and then, when the assembly main frame 301 is transferred to a certain position through the C-shaped extension rod 302, the telescopic inserting rod 2042 is enabled to be retracted inwards through the ejection spring 2045 to enable the telescopic inserting rod 2042 to be released from the connection and matched between the clamping groove 3021 and the matching protruding block 2043, further reset operation is achieved, and further continuous blanking processing of the next step is carried out.

The specific model specification of the hydraulic cylinder 7 is 7-14MPa;

The specific model specification of the driving motor 207 is HF-SP102K.

The foregoing has shown and described the basic principles and main features of the present utility model and the advantages of the present utility model. It will be understood by those skilled in the art that the present utility model is not limited to the embodiments described above, and that the above embodiments and descriptions are merely illustrative of the principles of the present utility model, and various changes and modifications may be made without departing from the spirit and scope of the utility model, which is defined in the appended claims. The scope of the utility model is defined by the appended claims and equivalents thereof.

Claims (10)

1. An automatic blanking forming device for an electronic component shell comprises a base (1) and is characterized in that a main storage groove (6) is formed in one side of the upper surface of the base (1), support columns (4) are fixedly arranged on two sides of the middle of the upper surface of the base (1), a top plate (5) is fixedly arranged on the upper ends of the two support columns (4), a hydraulic cylinder (7) is fixedly arranged on the lower end of the top plate (5), a forming through hole (10) is formed in the upper surface of the base (1) between the two support columns (4), an extension placing groove (602) is formed in the main storage groove (6) and below the forming through hole (10), a second discharging groove (601) is formed between the extension placing groove (602) and the main storage groove (6), a matched forming assembly (3) is arranged in the extension placing groove (602), and a driving assembly (2) is arranged on the upper surface of the base (1) on two sides of the matched forming assembly (3);

The driving assembly (2) comprises lower mounting columns (2011) and a board placing table (203), wherein four lower mounting columns (2011) are arranged, every two lower mounting columns (2011) are arranged on one side of a corresponding supporting column (4), and the board placing table (203) is provided with two boards which are respectively arranged on two sides of a forming through hole (10).

2. The automatic blanking forming equipment for the electronic component shell is characterized in that penetrating through holes (2014) are formed in each lower mounting column (2011), tightening springs (2013) are fixedly mounted at the bottoms of the penetrating through holes (2014), limiting inserted rods (2012) are movably penetrated in the penetrating through holes (2014), the tightening springs (2013) are fixedly connected with the corresponding limiting inserted rods (2012), and L-shaped expansion rods (201) are integrally arranged at the upper ends of the rod bodies of the limiting inserted rods (2012).

3. An automatic blanking forming apparatus for an electronic component housing as set forth in claim 2, wherein each of said L-shaped expansion rods (201) has a mating runner (202) rotatably mounted at a rod body end, a driving track (205) is provided between each of said mating runners (202), wherein a plurality of mating blocks (204) are provided on an outer surface of said driving track (205) on one side, an expansion mounting frame (206) is fixedly mounted to a rod body of one of said L-shaped expansion rods (201), and a driving motor (207) is fixedly mounted to an upper end of said expansion mounting frame (206).

4. An automatic blanking forming apparatus for an electronic component casing according to claim 3, wherein the output end of the driving motor (207) is fixedly provided with a transmission gear (2071), the outer surface of the matching rotating wheel (202) close to one side of the transmission gear (2071) is integrally provided with a matching gear (208), the matching gear (208) and the transmission gear (2071) are engaged for transmission, and a connecting cross bar (209) is fixedly installed between the matching rotating wheel (202) on one side of the matching gear (208) and the matching rotating wheel (202) on the opposite side.

5. The automatic blanking molding equipment for the electronic component shell, as set forth in claim 1, characterized in that the fitting molding assembly (3) comprises an assembly main frame (301), side matching plates (303) are integrally arranged on two sides of the assembly main frame (301), and each side matching plate (303) is provided with a penetrating matching hole (3031) in a penetrating mode.

6. The automatic blanking molding equipment for the electronic component shell according to claim 5, wherein one side matching plate (303) is integrally provided with a C-shaped extension rod (302), the end part of the rod body of the C-shaped extension rod (302) is integrally provided with a matching clamping groove (3021), the bottom of the component main frame (301) is integrally provided with a molding groove (304), and the molding groove (304) is aligned with the molding through hole (10).

7. The automatic blanking forming equipment for the electronic component shell is characterized in that a first discharging groove (305) is integrally formed in one side of the bottom of the component main frame (301), side sliding grooves (605) are respectively formed in two sides of the inner wall of the extension setting groove (602), side inserting rods (604) are integrally formed in the side sliding grooves (605), reset springs (603) are sleeved on rod bodies, close to one side of the main storage groove (6), of each side inserting rod (604), and each rod body of each side inserting rod (604) is in sliding fit with a corresponding penetrating matching hole (3031).

8. The automatic blanking molding equipment for the electronic component shell according to claim 7, wherein the side sliding groove (605) on one side of the C-shaped extension rod (302) is provided with an extension slot (606) in a penetrating mode, a rod body of the C-shaped extension rod (302) is movably inserted into the extension slot (606), and the matching clamping groove (3021) is connected and matched with the matching protruding block (2043).

9. The automatic blanking forming equipment for the electronic component shell is characterized in that anti-skid patterns (2041) are integrally formed on the outer surface of each matching block (204), telescopic slots (2044) are formed in each matching block (204), ejection springs (2045) are arranged in each telescopic slot (2044), telescopic inserting rods (2042) are arranged in the telescopic slots (2044) in a limiting penetrating mode through the ejection springs (2045), and matching protruding blocks (2043) are fixedly mounted at the end portions of the rod bodies of the telescopic inserting rods (2042).

10. The automatic blanking forming equipment for the electronic component shell is characterized in that a forming lower pressing block (8) is fixedly arranged at the output end of the hydraulic cylinder (7), the forming lower pressing block (8) is in penetrating fit with a forming through hole (10), a matching cutting groove (9) is integrally formed in the inner side edge of the forming through hole (10), a material trimming ring (801) is integrally formed in the upper side edge of the forming lower pressing block (8), and the material trimming ring (801) is attached to the matching cutting groove (9).